Vertebrate Bodyy Organization g and Systems y Digestive tube suspended in coelom from mouth to anus Body supported by internal skeleton of jointed bones Vertebrae and Cranium protects nervous system Diaphragm divides coelom into two parts Thoracic cavity: Heart and lungs P it Peritoneal l (abdominal) ( bd i l) cavity: it Stomach, St h intestines i t ti andd liver li Levels of organization cells are organized into tissues, tissues multiple types of tissues are organized into organs, organs are “organized” into systems Tissue - a group of cells with similar structure and functions Three fundamental embryonic tissues Endoderm, mesoderm, ectoderm Four adult primary tissues Epithelial, connective, muscle, nerve Organ - a structural and functional unit composed of different tissues Example - Heart Contains cardiac muscle, connective tissue, epithelial ith li l tissue ti Laced with nerves to regulate heart beat Organ system- A group of organs that function together to carry out body activities Example: l Digestive i i system composedd off digestive di i tract, liver, li gall bladder, pancreas p organ g systems y Humans contain eleven pprincipal Muscular System Nervous System Endocrine System Circulatory System Lymphatic System Respiratory System Digestive System Urinary System Male Reproductive System Female Reproductive System More detailed information on systems: http://www.biology.buffalo.edu/courses/bio531/lecture7.html Tissues Epithelial Tissue Covers Every Surface of the Body E id Epidermis i derived d i d from f ectoderm, t d comprises i outer t layer l off skin ki Digestive tract lined with endoderm derived epithelium Body cavities lined with mesoderm derived epithelium Functions of epithelial tissues Provide selective barrier - facilitate or impede passage of materials into underlying tissues Protect underlying tissue from dehydration and damage Secrete materials via glands Characteristics of epithelial layers Cells bound tightly together, one or a few cells thick Possess few blood vessels, transport materials via diffusion R dil regenerated Readily t d Two general classes Si l epithelium Simple i h li - one cell ll layer l thick hi k Stratified epithelium - more than one cell layer thick Simple squamous - flat cells with irregular shape - lining of lungs and capillaries Simple cuboidal: Equal height and width - lining of glands and kidney tubues Columnar: Height g ggreater than width - lining of digestive and respiratory tracts Stratified Squamous - skin and lining of mouth Pseudostratified Columnar li i off respiratory lining i t tract t t and glands Glands - derived from invaginated epithelia, produce substances Exocrine glands - Connected to epithelium by a duct Product channeled to outside or to body cavity p , ductless Endocrine gglands - No connection with epithelium, Secretions called hormones - enter blood at capillaries Connective Tissue Derived from embryonic mesoderm All connective tissue has widely-spaced cells imbedded in a non-cellular matrix T categories Two t i Connective tissue proper: Loose and dense Special connective tissue: Cartilage, bone, blood Loose Connective Tissue Strengthened by collagen, elastin and/or reticulin fibers Fibroblasts secrete collagen and fibro fibrouss proteins Cell of loose connective tissue Mast cells produce histamine and heparin Phagocytic macrophages defend against invading organisms May contain adipose (fat) cells Each fat cell stores a droplet of triglycerides Found under skin, skin between organs provides support, insulation, food storage Dense Connective Tissue Contains tightly packed collagen fibers - arranged in a regular or irregular pattern - has few cells Provides strong and flexible connections and coverings R l collagen Regular ll fibers fib are lined li d up in i parallel ll l Tendons bind muscle to bone Ligaments bind bone to bone Irregular collagen fibers - nonparallel orientation Tough coverings of organs - kidneys and adrenal glands Perim si m covers Perimysium co ers muscles, m scles perineurium perine ri m covers co ers nerves, ner es periosteum covers bones Specialized Connective Tissue Cartilage Has special ground substance made from a glycoprotein Collagen fibers laid down along lines of stress Firm, flexible tissue that is tough and doesn't stretch Makes up skeleton of jawless fishes, cartilaginous fishes, and pparts of skeleton in all other vertebrates Cells are chondrocytes - have no direct blood supply Receive oxygen and nutrients by diffusion from vessels in surrounding tissues Cartilage matrix is not calcified like bone - remains soft Found at joints, joints between vertebrae, vertebrae nose, nose ears reduces friction, and absorbs shock difficult to repair Bone M i is Matrix i collagen ll fibers fib hardened h d d with i h calcium l i phosphate h h Cells are Osteocytes Bone has blood supply pp y through g canals, osteocytes y have extensions to blood supply in canaliculi (small canals) Many bones in fetus first modeled in cartilage Cartilage hardened by calcification, calcification cells die, die replaced by bone with living osteocytes Easily repaired Blood Contains fluid matrix - plasma Cells Erythrocytes (red cells) have hemoglobin which carries oxygen Leukocytes (white cells) lack hemoglobin Neutrophils, eosinophils, basophils can be stained Lymphocytes and monocytes have immune functions Thrombocytes (platelets) are fragments of a type of bone marrow cell - function in clotting Blood plasma contains nutrients nutrients, metabolic wastes, wastes regulatory molecules, inorganic salts, proteins like fibrinogen and albumin Muscle Tissue Muscle cells (fibers) have large numbers of actin and myosin filaments, specialized spec ed for o contraction co c o Three types of vertebrate muscle: Smooth Skeletal and Cardiac Smooth, Skeletal and Cardiac are “striated” muscles have lines running across muscle fibers d to due t arrangementt off actin ti andd myosin i Smooth muscle has more irregular g arrangement Smooth muscle is found throughout animal kingdom C ll are long Cells l andd spindle-shaped, i dl h d eachh with i h one nucleus l Cells organized into sheets Two types T t off contraction t ti occur in i smooth th muscle: l All muscles contract as a unit when stimulated by nerve seen in muscles lining blood vessels, and muscles of iris Individual cells contract spontaneously (without stimulation) Causes slow, steady contraction of the tissue seen in muscles in the walls of the gut Nerves suppress contractions, do not cause it Skeletal Muscle Attached to bones byy tendons,, contract and cause bones to move Numerous parallel muscle cells act in concert Stronger contractions result when more fibers contract Number involved depends on stimulation by nerves Contain highly ordered arrays of actin and myosin filaments organized in bundles called myofibrils Fib are llong andd are the Fibers h result l off fusion f i off cells ll have multiple nuclei g Each fiber runs the length of the entire muscle Cardiac Muscle Vertebrate hearts made of specially arranged striated muscle fibers Composed of interconnected cells, each with its own nucleus Interconnections appear as lines called intercalated disks Lines are regions where cells are linked by gap junctions Interconnections allow heart to contract as single unit Functioning contractile unit is called a myocardium Certain muscle cells generate spontaneous electrical impulse Impulses spread across gap junction from cell to cell All cells in myocardium ultimately contract Nerve Tissue Neurons are cells specialized p for transmission of nerve impulses p has three parts: Cell body, dendrites, axon Cell body contains the nucleus Dendrites are highly branched protrusions from the cell body Receive stimulation, change in membrane b i permeability ion bili travels to cell body p away y from the cell body y Axon - transmits nerve impulse Tubular extension of the cell body - may be very long Axon mayy be covered with myelin sheath - “myelinated” Nodes of Ranvier - regular gaps in myelin sheath Nerves Are Bundles of Axon Fibers - many cells make a nerve C t l nervous system Central t (CNS): (CNS) Include I l d brain b i andd spinal i l cordd Peripheral nervous system (PNS): Include nerves and ganglia